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首页> 中文期刊> 《能源与环境材料(英文)》 >ZnO Interface Modified LiNi_(0.6)Co_(0.2)Mn_(0.2)O_(2)Toward Boosting Lithium Storage

ZnO Interface Modified LiNi_(0.6)Co_(0.2)Mn_(0.2)O_(2)Toward Boosting Lithium Storage

         
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摘要

In this work,an amorphous ZnO was coated on LiNi_(0.6)Co_(0.2)Mn_(0.2)O_(2)(NCM)using a sol-gel strategy method.The NCM coated with 1 wt.%Zn O and a thickness of about 3 nm exhibits an improved cycling performance,accompanied by a lower capacity fading(from 194.8 to 133.8 m Ah g^(-1),i.e.,68%)than that of the pristine one(i.e.,only 34%)after 300 cycles at 0.2 C.The cyclic voltammetry(CV)and electrochemical impedance spectroscopy(EIS)indicate that the Zn O coating can improve extraction/insertion of Li+and inhibit the increase in impedance of the NCM cathode material.This approach may benefit the performance improvement of the Ni-rich cathode materials in Lithium-ion batteries(LIBs).

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  • 来源
    《能源与环境材料(英文)》 |2020年第4期|P.522-528|共7页
  • 作者

    Yunyan Li; Xifei Li; Junhua Hu; Wen Liu; Hirbod Maleki Kheimeh Sari; Dejun Li; Qian Sun; Liang Kou; Zhanyuan Tian; Le Shao; Cheng Zhang; Jiujun Zhang; Xueliang Sun;

  • 作者单位

    Tianjin International Joint Research Center of Surface Technology for Energy Storage Materials Energy&Materials Engineering Center College of Physics and Materials Science Tianjin Normal University Tianjin 300387 China;

    Tianjin International Joint Research Center of Surface Technology for Energy Storage Materials Energy&Materials Engineering Center College of Physics and Materials Science Tianjin Normal University Tianjin 300387 China;

    State Center for International Cooperation on Designer Low-carbon&Environmental Materials(CDLCEM) Zhengzhou University 100 Kexue Avenue Zhengzhou 450001 China;

    Xi’an Key Laboratory of New Energy Materials and Devices Institute of Advanced Electrochemical Energy&School of Materials Science and Engineering Xi’an University of Technology Xi’an 710048 Shaanxi China;

    Xi’an Key Laboratory of New Energy Materials and Devices Institute of Advanced Electrochemical Energy&School of Materials Science and Engineering Xi’an University of Technology Xi’an 710048 Shaanxi China;

    Tianjin International Joint Research Center of Surface Technology for Energy Storage Materials Energy&Materials Engineering Center College of Physics and Materials Science Tianjin Normal University Tianjin 300387 China;

    Department of Mechanical and Materials Engineering University of Western Ontario London Ontario N6A 5B9 Canada;

    Shaanxi Coal Chem Ind Technol Res Inst Co Ltd Xian Shaanxi 710070 China;

    Shaanxi Coal Chem Ind Technol Res Inst Co Ltd Xian Shaanxi 710070 China;

    Shaanxi Coal Chem Ind Technol Res Inst Co Ltd Xian Shaanxi 710070 China;

    Shaanxi Coal Chem Ind Technol Res Inst Co Ltd Xian Shaanxi 710070 China;

    Xi’an Key Laboratory of New Energy Materials and Devices Institute of Advanced Electrochemical Energy&School of Materials Science and Engineering Xi’an University of Technology Xi’an 710048 Shaanxi ChinaDepartment of Chemistry College of Sciences/Institute for Sustainable Energy Shanghai University Shanghai 200444 China;

    Tianjin International Joint Research Center of Surface Technology for Energy Storage Materials Energy&Materials Engineering Center College of Physics and Materials Science Tianjin Normal University Tianjin 300387 ChinaXi’an Key Laboratory of New Energy Materials and Devices Institute of Advanced Electrochemical Energy&School of Materials Science and Engineering Xi’an University of Technology Xi’an 710048 Shaanxi ChinaDepartment of Mechanical and Materials Engineering University of Western Ontario London Ontario N6A 5B9 Canada;

  • 原文格式 PDF
  • 正文语种 chi
  • 中图分类 蓄电池;
  • 关键词

    cathode materials; LiNi_(0.6)Co_(0.2)Mn_(0.2)O_(2); lithium-ion batteries; ZnO coating;

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